Analysis of physiological parameters in skin tumors by a scaleable Monte Carlo simulation
- Author(s):
- Garcia-Uribe, A. ( Texas A&M Univ. (USA) )
- Wang, L. V. ( Texas A&M Univ. (USA) )
- Publication title:
- Optical interactions with tissue and cells XVI : 24-26 January 2005, San Jose, California, USA
- Title of ser.:
- Proceedings of SPIE - the International Society for Optical Engineering
- Ser. no.:
- 5695
- Pub. Year:
- 2005
- Page(from):
- 122
- Page(to):
- 127
- Pages:
- 6
- Pub. info.:
- Bellingham, Wash.: SPIE - The International Society of Optical Engineering
- ISSN:
- 16057422
- ISBN:
- 9780819456694 [0819456691]
- Language:
- English
- Call no.:
- P63600/5695
- Type:
- Conference Proceedings
Similar Items:
Society of Photo-optical Instrumentation Engineers |
SPIE-The International Society for Optical Engineering |
Plenum Press |
8
Conference Proceedings
Material origins of line-edge roughness: Monte Carlo simulations and scaling analysis
SPIE - The International Society of Optical Engineering |
3
Conference Proceedings
White-light oblique-incidence diffuse reflectance spectroscopy for classification of in-vivo pigmented skin lesions
SPIE - The International Society of Optical Engineering |
9
Conference Proceedings
Estimation of absorbing components in skin tissue using multiple regression analysis combined with Monte Carlo simulation
SPIE - The International Society of Optical Engineering |
4
Conference Proceedings
Studies of Thermal Fluctuations I n Nonequilibrium Systems by Monte Carlo Computer Simulations
D. Reidel Publishing Company |
Kluwer Academic Publishers |
5
Conference Proceedings
Interaction of the IR laser radiation with human skin: Monte Carlo simulation
SPIE - The International Society of Optical Engineering |
11
Conference Proceedings
Monte Carlo simulation of the diffusely scattered polarized light in turbid media
SPIE - The International Society of Optical Engineering |
SPIE-The International Society for Optical Engineering |
12
Conference Proceedings
(435c) Acceleration of Kinetic Monte Carlo Simulations Combining a Hybrid Approach with Scaling of Kinetic Parameters for Free Radical Copolymerization
American Institute of Chemical Engineers |